Characterization of the inbred CE/J mouse strain as amyloid resistant

Inbred CE/J mice have been identified as extremely resistant to azocasein- induced amyloidosis relative to five commonly used inbred strains, A/J, CBA/J, C57BL/6J, C3H/HeN, and SJL/J. The enhanced amyloid resistance in CE/J mice seems to derive from the novel structure of the SAA gene family in CE/J mice, as determined by Southern blot hybridization analysis of SAA gene structure and isoelectric focusing analysis of acute phase SAA proteins in the six inbred strains. In CE/J mice, a single, novel SAA isoform of p1 6.15 is present, whereas in the other strains the amyloidogenic SAA₂ isoform (pI 6.3) is codominantly expressed with SAA₁ (pI 6.45). Two other inbred strains, PERU and IS/CAM, share common SAA specific HindIII DNA fragments with CE/J mice. Wild-derived Mus musculus mice differ from all of the inbred strains studied, both in SAA gene structure and in the pattern of SAA isoform production; two isoforms, one pI 6.15 and the other pI 6.3 (corresponding to SAA₂), were codominantly expressed. Only the pI 6.15 isoform, not SAA₁ and ₂, was produced by CE/J mice in response to lipopolysaccharide, casein, silver nitrate, interleukin-1, or tumor necrosis factor; tumor necrosis factor was a weaker stimulus than interleukin-1 for the pI 6.15 isoform as it is for SAA₁ and ₂ production in the other inbred strains. This study provides a new line of evidence supporting the role of precursor structure as a determining factor in murine amyloid A amyloidosis and provides a valuable model for studies of amyloidogenesis.